Class / Patent application number | Description | Number of patent applications / Date published |
347065000 | Flow path | 67 |
20080218557 | MICRO-DROPLET EJECTION APPARATUS HAVING NOZZLE ARRAYS WITHOUT INDIVIDUAL CHAMBERS AND EJECTION METHOD OF DROPLETS THEREOF - A micro-droplet ejection apparatus includes a substrate, a droplet-ejecting layer, and a plurality of bubble generators. A liquid storage space is formed between the substrate and the droplet-ejecting layer. The liquid storage space has no spacer connecting the substrate and the droplet-ejecting layer. That is, the liquid storage space has no individual chambers. The droplet-ejecting layer has a plurality of through holes arranged in an array, and each through hole is used as a nozzle for pushing out ink. The plurality of bubble generators is disposed above the substrate, and corresponds to and is disposed under the through holes. The bubble generators on two sides of a designated bubble generator generate at least one limit bubble, limiting the growth of a main bubble generated by the designated bubble generator. | 09-11-2008 |
20080239013 | LIQUID DISCHARGING HEAD, LIQUID DISCHARGING APPARATUS, AND BUBBLE REMOVING METHOD FOR THE LIQUID DISCHARGING APPARATUS - A liquid discharging head includes a head chip including a plurality of energy generating elements configured to discharge liquid, and liquid chambers provided around the energy generating elements, and a common passage member configured to define a common passage communicating with all the liquid chambers. Liquid is discharged from the liquid chambers by driving the energy generating elements so as to apply a discharging force to the liquid. N-number of common passage members (N≧2) are provided, and each includes an inlet for supplying the liquid to the common passage and an outlet for ejecting the liquid from the common passage. The inlet of the first common passage member is connected to a liquid supply member. The inlet of the N-th common passage member is connected to the liquid supply member via an opening-closing valve and to the outlet of the (N-1)-th common passage member. | 10-02-2008 |
20080239014 | Liquid discharging head and liquid discharging apparatus - A liquid discharging head includes a head chip including a plurality of energy generating elements configured to discharge liquid and liquid chambers provided around the corresponding energy generating elements, and a common passage member configured to define a common passage communicating with all the liquid chambers in the head chip. the liquid is discharged from the liquid chambers by driving the energy generating elements so as to apply a discharging force to the liquid. The common passage member includes an inlet through which the liquid is supplied to the common passage, and an outlet through which the liquid is ejected from the common passage. The common passage includes a ceiling surface having a groove extending from the inlet toward the outlet. | 10-02-2008 |
20080303874 | THERMAL INKJET PRINTHEAD - A thermal inkjet printhead that includes a substrate, a chamber layer stacked on the substrate, an ink chamber formed in the chamber layer, a heater to heat ink filled in the ink chamber to generate bubbles, and a nozzle layer stacked on the chamber layer, and including a nozzle formed in the nozzle layer, wherein a ratio of the volume of ink ejected through the nozzle with respect to the sum of the volumes of the ink chamber and the nozzle is in the range of approximately 40 to 60%. | 12-11-2008 |
20080309732 | LIQUID EJECTION APPARATUS - A liquid ejection apparatus having liquid ejection heads extending in a particular direction, and each liquid ejection head has an ejection surface with ejection ports configured to eject a liquid, a supply port to which liquid is supplied, and a flow path formed in the liquid ejection bead. The flow path is configured to place the ejection ports and the supply port in fluid communication. The liquid ejection heads are positioned at predetermined intervals in a direction perpendicular to the particular direction, and for each liquid ejection head, the supply port of one liquid ejection head is in a different location in the particular direction, than all of the liquid ejection heads adjacent to the one liquid ejection head in the perpendicular direction. | 12-18-2008 |
20080309733 | LIQUID DISCHARGING HEAD, PRODUCING METHOD THEREOF, STRUCTURE, AND PRODUCING METHOD THEREOF - A producing method of a liquid discharging head includes a discharge port discharging a liquid and a flow path communicating with the discharge port, the method comprising the steps of forming a pattern of a shape of the flow path on a substrate, forming a layer of a negative type photosensitive resin composition including a photo-initiated polymerization initiator on the substrate so as to coat the pattern, at least a region of the layer in a vicinity of the substrate including a sensitizing agent of the photo-initiated polymerization initiator, a density of the sensitizing agent in the layer formed to be higher in the region than in a part where the discharge port is formed, forming the discharge port by exposing the layer to pattern the layer, and removing a pattern to form the flow path. | 12-18-2008 |
20080316277 | MICRO-FLUID EJECTOR PATTERN FOR IMPROVED PERFORMANCE - A micro-fluid ejection head and method for reducing a stagger pattern distance and improving droplet placement, on a receiving medium. The micro-fluid ejection head includes a substrate containing a plurality of ejection actuators on a device surface thereof and a fluid supply slot for providing fluid to be ejected by the micro-fluid ejection head. The ejection head also includes a flow feature component in flow communication with the fluid supply slot and configured for providing fluid ejection chambers and fluid supply channels for the fluid ejection chambers. Adjacent first and second ejection actuators in a substantially linear array of ejection actuators are each spaced a first distance from the fluid supply slot and second and third ejection actuators in the linear array of ejection actuators are each spaced a second distance from the fluid supply slot that is less than the first distance. | 12-25-2008 |
20080316278 | Ink Jet Print Head With Improved Reliability - An ink jet print head is provided having an ink chamber and a nozzle plate closing the ink chamber at an end comprising a nozzle for ejecting a drop of ink through it. The nozzle plate further includes an ink path for flowing an ink through in a direction parallel with the nozzle plate and passing the inner end of the nozzle. This ink flow is in excess of that required for replenishing the ejected drops of ink in the ink chamber and may flow continuously passed the inner end of the nozzle and along the ink path to refresh the ink that is used for ejecting through the nozzle. | 12-25-2008 |
20080316279 | LIQUID EJECTION HEAD AND IMAGE FORMING APPARATUS - A liquid ejection head includes a nozzle plate having a nozzle that ejects liquid drops, an actuator that deforms a portion of the nozzle plate surrounding the nozzle with heat, and a flow path member opposing the nozzle plate, which forms a flow path for guiding liquid to the nozzle. A fluidity resistance path is provided in the flow path between a nozzle plate portion surrounding the nozzle and a portion of the flow path member opposing the nozzle plate portion. A fluidity resistance of the fluidity resistance path is changed by deforming the nozzle plate portion. | 12-25-2008 |
20090021562 | LIQUID EJECTION HEAD AND RECORDING APPARATUS - An ink jet recording head includes a plurality of ejection outlets for ejecting liquid; individual liquid chambers communicating with the plurality of ejection outlets; ejection energy generating elements, provided correspondingly to associated ones of the individual liquid chambers, for generating energy for ejecting the liquid; a common liquid chamber for supplying the liquid to the plurality of individual liquid chambers; and communicating paths constituting flow paths for communicating associated ones of the individual liquid chambers and the common liquid chamber with each other. At least adjacent ones of the flow paths have communicating positions, at different portions as seen in a direction perpendicular to a direction of ejection of the liquid trough the ejection outlets, with said common liquid chamber. | 01-22-2009 |
20090027457 | Fluid ejection device - Embodiments of a fluid ejection device are disclosed. | 01-29-2009 |
20090040279 | INKJET PRINTHEAD WITH NON-UNIFORM NOZZLE CHAMBER INLETS - An inkjet printhead with an array of droplet ejectors arranged in adjacent rows, each nozzle having a nozzle, a chamber for containing printing fluid and a corresponding actuator for ejecting the printing fluid through the nozzle. Each of the chambers has a respective inlet to refill the printing fluid ejected by the actuator. A printing fluid supply channel extends parallel to the adjacent rows for supplying printing fluid to the actuator of each droplet ejector in the array via the respective inlets. The inlets for one of the adjacent rows configured for a refill flowrate that is substantially the same as the refill flowrate through the inlets for another of the adjacent rows. The invention configures the nozzle array so that several rows are filled from one side of an ink supply channel. This allows a greater density of nozzles on the printhead surface because the supply channel is not supplying just one row of nozzles along each side. However, the flowrate through the inlets is about the same for each row so that rows further from the supply channel do not tee significantly longer refill times | 02-12-2009 |
20090040280 | LIQUID EJECTING HEAD AND LIQUID EJECTING DEVICE - A liquid ejecting head having at least one heat-energy evolving element constructed in a pattern with at least one bend and that evolves heat energy to eject liquid, conductors connected to the heat evolving element and to the bend and a nozzle through which liquid is ejected associated with each heat-energy evolving element. | 02-12-2009 |
20090079798 | Liquid-droplet jetting apparatus - An ink storage chamber has a middle wall and a damper wall, which are in parallel to a flow direction of ink and which face each other vertically with a distance therebetween, and a surrounding wall surrounding a circumference of a space between the middle wall and the damper wall. On the middle wall, there is formed a pair of flow regulating ribs projecting toward the damper wall and extending substantially in parallel to the flow direction in a state of having a distance from the damper wall. A space sandwiched by the pair of flow regulating ribs is a main flow region, and spaces between the flow regulating ribs and the surrounding wall is sub-flow regions. A distance between the middle wall and the damper wall in the sub-flow regions is smaller than that in the main flow region. Accordingly, a wasted ink amount during purging can be reduced. | 03-26-2009 |
20090096841 | Liquid ejection head and liquid ejection device - A flow path structure includes a heating element, a barrier layer, a liquid chamber formed by a part of the barrier layer and a pair of walls confronting each other to hold the heating element therebetween and a first individual flow path and a second individual flow path disposed on both the sides of the liquid chamber to communicate with the liquid chamber, a liquid is supplied to the liquid chamber from at least one of first and second individual flow paths, and the distance U between the walls in the liquid chamber and the flow path width W of the first individual flow path are set to satisfy U>W. With this arrangement, a flow path structure can be provided in which a failure in flow paths due to dusts is unlike to occur and which minimizes the influence of bubbles and has almost no uneven ejection. | 04-16-2009 |
20090102893 | INK JET RECORDING HEAD AND RECORDING APPARATUS - An ink jet recording head is constituted by a recording element substrate including an ejection outlet array consisting of a plurality of arranged ejection outlets for ejecting ink; a plurality of heat generating elements, provided correspondingly to the ejection outlets, for generating thermal energy for ejecting the ink; and a supply port, formed along the ejection outlet array in an elongated hole-like shape, for supplying the ink to the ejection outlets; and a supporting member, having a supply flow passage communicating with the supply port, for supporting the recording element substrate. The supporting member is provided with at least two beams each extending over an opening of the supply flow passage in a widthwise direction of the supply flow passage and having a width W with respect to a longitudinal direction of the supply flow passage. At least two beams described above are disposed within a range from a center of the supply flow passage with respect to the longitudinal direction toward both longitudinal end sides of the supply flow passage by 2.5 W for each of the end sides and are spaced 2 mm or more apart. | 04-23-2009 |
20090141091 | INK JET RECORDING HEAD - An ink jet recording head includes ejection energy generating elements for ejecting ink, flow passages for supplying the ink from an ink supply port to the ejection energy generating elements through a common liquid chamber, a partition wall formed between adjacent two flow passages, a member disposed between the partition wall and the ink supply port, and an opening formed between the partition wall and the member. A flow resistance in the opening from one of the adjacent two flow passages to the other flow passage is different from that in the opening from the other flow passage to the one of the adjacent two flow passages. | 06-04-2009 |
20090153624 | LIQUID EJECTION HEAD AND PRINTING APPARATUS - The present invention provides a reliable print head with improved reliability which is inhibited from being damaged by possible cavitation in ink inside a bubbling chamber, as well as a printing apparatus using the print head. A plurality of ink supply paths through which the ink is supplied to the bubbling chamber are connected to the bubbling chamber. Communication positions where the plurality of ink supply paths communicate with the energy acting chamber are formed such that distanced from a heater formation surface of the communication positions are different from each other along a direction orthogonal to the heater formation surface. | 06-18-2009 |
20090160913 | INK JET RECORDING HEAD AND MANUFACTURE METHOD FOR THE SAME - An ink jet recording head has sufficient and uniform ink refill for all orifices and separate flow paths even though the substrate has a high rigidity by dividing a supply port into a plurality of ports. The substrate of the ink jet recording head has a plurality of separate flow paths corresponding to discharge pressure generating elements, a common flow path communicating with the separate flow paths, an ink supply port communicating with the common flow path and supplying ink to the common flow path, and a plurality of beam portions dividing the ink supply port. A recess is formed on the common flow path, extending to the separate flow paths formed nearest to the beam portion. | 06-25-2009 |
20090167820 | Inkjet Head - An inkjet head may comprise an ejection port which ejects ink and an ink flow path which supplies the ink to the ejection port. The inkjet head may also comprise an ejection actuator which supplies ejection energy to the ink in the ink flow path. The ejection energy may cause the ink to be ejected from the ejection port. The inkjet head may also comprise a wall portion. The wall portion may be located at a position farther from the ejection port along the ink flow path with respect to a position at which the ejection energy is supplied. The wall portion may define an inner wall surface of the ink flow path. The wall portion may deform to decrease a cross section of the ink flow path in a direction orthogonal to an ink-flow direction as a temperature of the ink in the ink flow path increases. The wall portion may deform to increase a cross section of the ink flow path in a direction orthogonal to an ink-flow direction as the temperature of the ink in the ink flow path decreases. | 07-02-2009 |
20090185009 | INKJET PRINTHEAD INTEGRATED CIRCUIT WITH RECTIFYING VALVES - Provided is a unit cell arrangement for an inkjet printhead. The unit cell arrangement includes a substrate that defines an ink inlet and sidewalls supporting a roof portion on the wafer substrate to form an ink chamber. The roof portion defines at least one nozzle rim. The unit cell also includes a heater element suspended in the chamber between the sidewalls for thermal cavitation of ink in the chamber to facilitate ink ejection via the nozzle rim. Further included is a rectifying valve arranged in the ink inlet to provide decreased hydraulic resistance to ink flowing into the chamber than ink flowing out of the chamber in order to reduce fluidic cross talk between chambers of similar unit cells on the substrate and to improve ink refill times of the chambers. | 07-23-2009 |
20090201343 | LIQUID EJECTION HEAD AND MANUFACTURING METHOD OF LIQUID EJECTION HEAD - The present invention provides a liquid ejection head for which the peeling of an orifice plate from a substrate seldom occurs, even in a structure such that the walls that define each energy application chamber are narrowed toward a ejection port. The walls that define a first pressure chamber are inclined inward within the first pressure chamber, so that the first pressure chamber is narrowed, toward an ejection port, along a direction perpendicular to the heater formation face on which heaters are arranged. Further, the walls that define each ink flow path are inclined in the ink ejection direction. Furthermore, the angle at which the walls that define the ink flow path are inclined relative to the ink ejection direction is smaller than the angle at which the walls that define the first pressure chamber are inclined inward, within the first pressure chamber. | 08-13-2009 |
20090244199 | LIQUID DISCHARGING HEAD AND INKJET HEAD - A liquid discharging head includes a flow path unit having a common liquid flow path; an individual liquid flow path; and a plurality of plates that are stacked to form the common liquid flow path and the individual liquid flow path. The plurality of plates includes at least four manifold plates that include partial plates and support members, wherein the at least four manifold plates comprise: a first manifold plate that includes a first partial plate and a first support member that supports the first partial plate; a second manifold plate that includes a second partial plate and a second support member that is adjacent to the first support member in a direction in which the common liquid path extends, the second support member supporting the second partial plate; and at least one manifold plate that is interposed between the first manifold plate and the second manifold plate. | 10-01-2009 |
20090267997 | INK JET HEAD - An ink jet head includes a substrate having an ink supply port; an ejection outlet for ejecting ink supplied through the supply port; a flow path portion which provides fluid communication between the supply port and the ejection outlet; wherein the flow path portion includes a near portion which is near to the substrate and a remote portion which is remote from the substrate, and a width of the near portion is different from a width of the remote portion in a sectional plane perpendicular to a direction of flow of the ink, and wherein a stepped portion is provided between the near portion and the remote portion. | 10-29-2009 |
20090273650 | Printhead With Columns Extending Across Chamber Inlet - An inkjet printhead for a printer that prints via an array of ink ejection devices. Each ink ejection device has a chamber for holding a quantity of ink. The chamber is partially defined by at least one sidewall and has an inlet in fluid communication with the chamber. The inlet defines a flow path into the chamber and has a series of columns extending across the flow path. The series of chambers form a barrier structure that creates a flow constriction that traps contaminants in the ink flow. | 11-05-2009 |
20100013893 | LIQUID EJECTING HEAD - A liquid ejecting head includes: a flow path unit including a nozzle forming member with a plurality of nozzle orifices provided in a row, and a flow path forming substrate made of a metal, in which pressure generating chambers in communication with the nozzle orifices are formed; and an actuator unit for giving a pressure fluctuation to the pressure generating chambers, wherein a recess portion is formed in a side of the flow path forming substrate, which faces the nozzle forming member, in a sunken state from a surface of the flow path forming substrate, and a heater is received in the recess portion. | 01-21-2010 |
20100026766 | LIQUID JET RECORDING HEAD - A liquid jet recording head includes a substrate on which are formed recording elements that generate energy for ejecting liquid, and a flow passage forming member that is in contact with the substrate and in which are formed ejection ports that eject liquid and flow passages that supply liquid to the ejection ports. The flow passage forming member has a groove formed along the longitudinal direction of the flow passage forming member, and each end of the groove is located nearer to the middle in the width direction of the flow passage forming member than the other part of the groove is. | 02-04-2010 |
20100039479 | PRINTHEAD - Ink jet printheads and printhead components are described. | 02-18-2010 |
20100073433 | LIQUID EJECTING HEAD - A head for ejecting a liquid from ejection holes, including: a first flow-passage member in which is formed a first liquid-supply passage; a second flow-passage member in which is formed a second liquid-supply passage connected to the first passage and which has outflow ports for dispensing the liquid from the second passage; a third flow-passage member in which are formed (a) at least one common liquid passage each communicating with at least one of the outflow ports and (b) individual liquid passages; and at least one energy giving member, wherein the first member, the second member, and the third member are superposed in this order on each other, and wherein the head further comprises a heater disposed between one surface of the first member that faces the second member and facing surface of the second member as one surface thereof that faces the first member. | 03-25-2010 |
20100123760 | LIQUID DISCHARGE HEAD AND LIQUID DISCHARGE METHOD - A liquid discharge head includes: a discharge port from which a liquid is discharged; a channel that communicates with the discharge port; and an energy generating element that is provided in the channel and generates energy used to discharge the liquid from the discharge port, wherein the channel includes a first inlet path supplying the liquid to the energy generating element; a second inlet path supplying the liquid to the energy generating element from a direction opposite to a direction in which the first inlet path supplies the liquid; and a outlet path allowing the liquid supplied to the energy generating element to run out. | 05-20-2010 |
20100141711 | Liquid-jet head chip, liquid-jet head, and liquid-jet recording apparatus - To discharge a liquid from each of liquid discharge flow paths without being affected by an operating state of the other liquid discharge flow paths, a liquid-jet head chip includes: an actuator substrate including a plurality of discharge grooves each being open on one surface of the actuator substrate, and the plurality of discharge grooves being formed in parallel at a distance from each other; a cover plate substrate including a common ink chamber being open on a surface of the cover plate substrate on a side opposite to the actuator substrate and a plurality of slits extending from the common ink chamber to be in communication with the discharge grooves; and a filter having a flat surface at an approximately constant distance from ends of all the slits, the structure being located at a position at which an opening of the common ink chamber is substantially closed. | 06-10-2010 |
20100201753 | INK JET PRINT HEAD - An ink jet print head is provided which has a reduced size and still can prevent an overall temperature increase in a printing element board. To this end, among ink supply port arrays formed on both sides of each nozzle array, the heat resistance of the portion (beams) of the printing element board between the adjoining ink supply ports is lowered in those arrays that are close to the end portions of the common liquid chamber. | 08-12-2010 |
20100201754 | INK JET PRINT HEAD - An ink jet print head is provided which can improve throughput by increasing an ink ejection frequency and prevent crosstalk among a plurality of heat application portions, realizing a capability of printing high-quality images at high speed. An opening size of the supply ports in a direction perpendicular to the array direction of the heat application portions is made greater than the length in the direction of electrothermal conversion elements. The supply ports are arranged along the array direction so that they adjoin the heat application portions in the array direction. | 08-12-2010 |
20100220154 | BASE FOR LIQUID DISCHARGE HEAD, AND LIQUID DISCHARGE HEAD USING THE SAME - A base for a liquid discharge head includes a heat element which forms an exothermic portion | 09-02-2010 |
20100220155 | THERMAL INK JET PRINTHEAD - An ink jet printhead includes a plurality of nozzles each having a nozzle aperture; a plurality of bubble forming chambers, each corresponding respectively to one of the plurality of nozzles; an inlet for communicating printing fluid between the nozzle aperture and a printing fluid supply, the inlet and the nozzle aperture being aligned along a common central axis; and a heater element disposed in each of the bubble forming chambers. Each heater element has two bubble nucleation regions suspended within the bubble forming chamber in a plane parallel to that of the nozzle aperture. The two bubble nucleation regions are laterally offset from the central axis, such that the lateral offset of one of the bubble nucleation regions is equal and opposite to the lateral offset of the other bubble nucleation region. The bubble nucleation regions are spaced from each other such that bubbles nucleated at each will grow until they unite to form the gas bubble that causes the ejection of a drop of ejectable liquid. | 09-02-2010 |
20100283819 | LIQUID EJECTION HEAD - A print head is provided that well preserves ink characteristics upon printing by way of performing effective ink preliminary heating. The print head has heaters, and ejection openings formed at locations corresponding to the heaters. Viewed from the side from which ink is ejected, a sub-heater is established in the print head between the ink supply port and the print elements such as to surround the ink supply port. | 11-11-2010 |
20110205305 | HEATER CHIPS WITH SILICON DIE BONDED ON SILICON SUBSTRATE - A heater chip has a substrate and at least one die, made of silicon, and a bond non-adhesively attaching them. The substrate, thick enough to resist bowing, has ink supply vias from back to front surfaces. The die has ink flow vias from back to front surfaces and circuitry including heater elements adjacent the front surface interspersed with ink flow vias. The at least one die is superimposed on the substrate such that ink supply vias of the substrate align with ink flow vias of the die and portions of substrate front surface and die back surface are aligned, disposed adjacent and facing one another. The bond formed between substrate and die facing surface portions is hermetic and equal in strength to a Si—O bond. A metal through the die connects a conductor on a front of the substrate to a heater element on a front of the die. | 08-25-2011 |
20110292132 | LIQUID DISCHARGE HEAD - Provided is a liquid discharge head including a discharge port; an energy application chamber that includes a heat generating element, and communicates with the discharge port; and a flow path that supplies the liquid to the energy application chamber, wherein the energy application chamber includes a first energy application chamber communicating with the discharge port, and a second energy application chamber communicating with the first energy application chamber and the flow path, a distance between facing side walls of the second energy application chamber is larger than that of the first energy application chamber in a section perpendicular to a liquid supply direction from the flow path to the energy application chamber, and for side walls of the energy application chambers formed on a back side in the liquid supply direction, the first energy application chamber and the second energy application chamber share the wall. | 12-01-2011 |
20110310183 | SUBSTRATE FOR LIQUID DISCHARGE HEAD AND LIQUID DISCHARGE HEAD - A liquid discharge head includes a heat accumulation layer provided on a board, an energy generation element configured to generate energy to discharge liquid from a discharge port and including a heat generation resistor layer provided on the heat accumulation layer and formed of a material configured to generate heat through supply of electricity and a pair of electrodes connected to the heat generation resistor layer, and an insulation layer including a silicon compound and provided so as to cover the energy generation element, and a line formed of a metal material provided between the heat accumulation layer and the insulation layer, and in at least a portion at a position closer to a flow path than the energy generation element. | 12-22-2011 |
20120007925 | LIQUID EJECTION HEAD - A liquid ejection head includes a common liquid chamber for storing liquid, a plurality of flow paths that communicate individually with the common liquid chamber and through which liquid from the common liquid chamber flows, a plurality of ejection orifices that communicate individually with the plurality of flow paths and eject liquid supplied from the common liquid chamber, a plurality of ejection energy generating elements corresponding to the plurality of ejection orifices and generating energy necessary to cause liquid to be ejected from the plurality of ejection orifices, and a movable pressure buffer provided in the common liquid chamber and capable of absorbing a pressure wave generated by driving the plurality of ejection energy generating elements. | 01-12-2012 |
20120069097 | LIQUID EJECTING HEAD UNIT - A liquid ejecting head unit includes a flow path unit including a flow path communicating with a plurality of nozzles, a head case in which a common liquid flow path for supplying liquid to the flow path of the flow path unit is formed and to which the flow path unit is bonded, a flow path member which is bonded to the head case at the side opposite to the side to which the flow path unit is bonded and includes an upstream-side flow path for supplying liquid to the common liquid flow path, a heater which is mounted on a side face of the head case and is capable of generating heat, and a metal plate a portion of which is bonded to the heater and other portions of which are opposed to a portion of the flow path member. | 03-22-2012 |
20120069098 | HEATING FLOW PATH UNIT AND LIQUID EJECTING HEAD - In the heating flow path unit, the entrance-side sealing member has an inflow restriction portion which restricts flow of liquid on a portion corresponding to an individual entrance-side opening of a liquid flow path in which flow rate is relatively high among the liquid flow paths. | 03-22-2012 |
20120075387 | LIQUID EJECTING HEAD - A liquid ejecting head includes a flow path unit that has a nozzle line formed by a plurality of nozzles and includes a flow path communicating with the nozzles, a head case that forms a shared liquid flow path for supplying a liquid to the flow path of the flow path unit and is connected with the flow path unit, and a sheet-like heater that is mounted on a side surface of the head case and has a continuous heat-generatable heating element folded multiple times. A portion of the heating element located in a region close to a position opposing the shared liquid flow path is narrower than a portion of the heating element located at a position other than the region. | 03-29-2012 |
20120120158 | LIQUID DISCHARGE HEAD - A liquid discharge head includes a plurality of nozzle arrays. A concave portion is formed on a back side of a head substrate, and all supply ports are formed in the bottom of the concave portion. The head substrate and a supporting member are bonded at the bottom of the concave portion so that the supply port and an introduction port communicate with each other. According to such a configuration, a ground contact area can be sufficiently secured, so that a liquid discharge head that is highly reliable and having high heat dissipation ability, and that can be manufactured with high productivity can be achieved. | 05-17-2012 |
20120140000 | INK JET RECORDING HEAD - An ink jet recording head capable of maintaining ink supply capability for a long period of time, including a substrate provided with a plurality of energy generating elements and an ink supply port, and a flow path member which has a plurality of discharge ports, a plurality of ink flow paths in communication with the plurality of discharge ports, and a common liquid chamber in communication with the plurality of ink flow paths, in which the common liquid chamber is divided into a discharge port area and a drainage port area, the ink flows into the discharge port area through a filter, and in the case where a smallest diameter among the diameters of the discharge ports and the diameters of the ink flow paths is denoted by A and a largest diameter of openings of the filter is denoted by B, A≧B is satisfied. | 06-07-2012 |
20120200641 | LIQUID EJECTION HEAD AND LIQUID EJECTION METHOD - A liquid ejection head including an ejection orifice for ejecting a liquid; a flow path for supplying the liquid from a liquid supply port holding the liquid to the ejection orifice; and a heat generating element of a rectangular form with a long-side to short-side ratio of 2.5 or more for generating thermal energy used to eject the liquid, a longitudinal direction of the heat generating element being arranged along an extending direction of the flow path. An end portion of the heat generating element on a downstream side of a liquid flowing direction within the flow path is located between an end portion of the ejection orifice on the downstream side and an end portion of the ejection orifice on an upstream side when viewed from a direction to which the liquid is ejected from the ejection orifice. | 08-09-2012 |
20120242753 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS - A first member and a second member constituting flow passage member are joined at a first joining region that surrounds the periphery of a liquid flow passage and a second joining region that is further to the outside than the first joining region, and in a state where the second joining region has a gas barrier property higher than that of the first joining region, the second joining region seals a gap between the first member and the second member, wherein the liquid ejecting head includes a communication hole that communicates a space between the first member and the second member with the outside, which is surrounded by the first joining region and the second joining region. | 09-27-2012 |
20130016161 | LIQUID EJECTION HEAD AND LIQUID EJECTION DEVICEAANM HOTTA; AkiraAACI MatsumotoAACO JPAAGP HOTTA; Akira Matsumoto JP - A liquid ejection head includes a nozzle plate, and a flow path member that is bonded to the nozzle plate, wherein the individual flow path includes a communicating portion that communicates with the nozzle openings and a pressure generating chamber that communicates with the communicating portion and has a width narrower than that of the communicating portion in the first direction, and wherein, in the flow path member, a first individual flow path row in which corresponding individual flow paths are arranged side by side in the first direction and a second individual flow path row where corresponding individual flow paths are arranged side by side in the first direction are arranged side by side in a second direction intersecting with the first direction, and each communicating portion of the second individual flow path row is provided between the pressure generating chambers of the first individual flow path row. | 01-17-2013 |
20130057619 | LIQUID DISCHARGE HEAD AND METHOD OF MANUFACTURING THE SAME - Provided is a method of manufacturing a liquid discharge head including: forming a first pattern for forming the flow path on the substrate; forming a first coating layer which covers the first pattern; forming a hole in the first coating layer, through which the first pattern is exposed; forming a second pattern for forming the flow path on the first coating layer, such that the second pattern contacts with the first pattern through the hole; forming a second coating layer for covering the second pattern; forming the discharge port in the second coating layer; and removing the first pattern and the second pattern to form the flow path. | 03-07-2013 |
20130088547 | INK JET PRINT HEAD - An ink jet print head is provided which can improve throughput by increasing an ink ejection frequency and prevent crosstalk among a plurality of heat application portions, realizing a capability of printing high-quality images at high speed. An opening size of the supply ports in a direction perpendicular to the array direction of the heat application portions is made greater than the length in the direction of electrothermal conversion elements. The supply ports are arranged along the array direction so that they adjoin the heat application portions in the array direction. | 04-11-2013 |
20130135398 | Ink jet recording apparatus and nozzle recovery method - An ink jet recording apparatus includes a recording head having a common liquid chamber and a plurality of nozzles configured to discharge ink supplied from the common liquid chamber using generation of bubbles, and a recovery unit configured to perform recovery processing on the plurality of nozzles, wherein the recovery unit performs the recovery processing while the recovery unit changes a distribution of flow velocity of the ink flowing from the common liquid chamber to the plurality of nozzles by generating bubbles within apart of the nozzles among the plurality of nozzles. | 05-30-2013 |
20130169715 | INKJET PRINT HEAD AND MANUFACTURING METHOD THEREOF - An inkjet print head configured to smoothly discharge high viscosity ink includes a nozzle part configured to discharge ink, a supply flow path part configured to define a flow path to supply ink to be discharged from the nozzle part, and a micro pattern part formed at least one portion of the supply flow path part that is configured to reduce of a flow resistance of the ink flowing through the supply flow path part. | 07-04-2013 |
20130257996 | DIGITAL DROP PATTERNING DEVICE AND METHOD - A liquid dispenser array structure includes a liquid dispensing channel. A first liquid supply provides a carrier liquid that flows continuously through an outlet of the liquid dispensing channel during a drop dispensing operation. A plurality of liquid dispensers, located on a common substrate, includes a liquid supply channel and a second liquid supply that provides a functional liquid, immiscible in the carrier liquid, to the liquid dispensing channel through the liquid supply channel. A drop formation device, associated with an interface of the liquid supply channel and the liquid dispensing channel, is selectively actuated to form a discrete drop of the functional liquid in the carrier liquid flowing through the liquid dispensing channel. | 10-03-2013 |
20130257997 | DIGITAL DROP PATTERNING DEVICE AND METHOD - A liquid dispensing system includes a liquid dispenser array structure. A first liquid supply provides a carrier liquid that flows continuously through an outlet of a liquid dispensing channel during a drop dispensing operation. A plurality of liquid dispensers, located on a common substrate, includes a second liquid supply that provides a functional liquid, immiscible in the carrier liquid, to the liquid dispensing channel through a liquid supply channel. A drop formation device, associated with an interface of the liquid supply channel and the liquid dispensing channel, is selectively actuated to form discrete drops of the functional liquid in the carrier liquid flowing through the liquid dispensing channel. A receiver conveyance mechanism and the liquid dispenser array structure are positioned relative to each other such that the discrete drops of the functional liquid are applied to a receiver. | 10-03-2013 |
20140146110 | BYPASS FLOW PATH FOR INK JET BUBBLES - An apparatus includes a bypass flow path between an ink supply port and a vent port and a primary flow path between the ink supply port and an ink delivery port. A first flow velocity of the bypass flow path is higher than a second flow velocity of the primary flow path. The first flow velocity induces bubbles to travel via the bypass flow path instead of the primary flow path. | 05-29-2014 |
20140218443 | LIQUID DISCHARGE HEAD AND RECORDING APPARATUS USING THE SAME - A liquid discharge head includes: a recording element substrate including a discharge port group for discharging liquid and a supply port for supplying the liquid to the discharge port group; a supporting member including a liquid chamber for storing the liquid therein, the supporting member being configured to support the recording element substrate; a flow path formed between the liquid chamber and the supply port and configured to allow the liquid to flow therethrough along a main surface of the recording element substrate on which the supply port opens; and a plurality of through holes communicating the liquid chamber with the flow path. A sum of opening areas of the plurality of through holes per unit area is greater in a region having relatively high temperature than that in a region having relatively low temperature in an in-plane direction of the main surface of the recording element substrate. | 08-07-2014 |
20140267503 | LIQUID EJECTING APPARATUS - A liquid ejecting apparatus is provided which can suppress bubbles from remaining in liquid flow paths. The liquid ejecting apparatus includes a head that includes a flow path member in which a plurality of ink flow paths are formed, a head main body to which ink is supplied form the flow path member and which ejects the ink to a recording sheet, and a moving element that causes the head to perform a reciprocating moving motion on the recording sheet in the X direction. In the plurality of ink flow paths, the longest ink flow path has the smallest Y direction component on an XY surface (a horizontal surface) of the plurality of ink flow paths. | 09-18-2014 |
20140327721 | LIQUID EJECTION HEAD AND INKJET PRINTING APPARATUS - A liquid ejection head capable of more efficiently ejecting ink and an inkjet printing apparatus are provided. The liquid ejection head has a block member which surrounds at least a part of an effective bubble-generating region involved with heat generation in a heat-generating element and which is formed so as to protrude from the heat-generating element in a direction in which a liquid is ejected. The block member is arranged in a position where a distance of a position of an inner end part from an outer end part of the effective bubble-generating region is +2 μm or less, with an outward direction being set to be positive. | 11-06-2014 |
20150022591 | LIQUID EJECTION HEAD - A liquid ejection head includes a plurality of recording element substrates that each include an energy generating element generating energy utilized for ejecting a liquid and that each have a supply port through which the liquid is supplied to the energy generating element, a plurality of support members that each have a flow passage communicating with a corresponding one of the supply ports and that each support a corresponding one of the plurality of recording element substrates, a base substrate that supports the plurality of support members, and a heat insulating member disposed between the flow passages and the base substrate. In the liquid ejection head, a thermal conductivity of the support members is equal to or greater than a thermal conductivity of the recording element substrates, and a thermal conductivity of the heat insulating member is less than a thermal conductivity of the base substrate. | 01-22-2015 |
20150062253 | LIQUID EJECTION HEAD AND PRODUCTION PROCESS THEREOF - The invention provides a liquid ejection head including a substrate and a flow path forming member on the substrate, the flow path forming member forming an ejection orifice from which a liquid is ejected and a liquid flow path. The flow path forming member is formed of an inorganic material, contains at least a flow path side wall portion forming a side of the liquid flow path and has a member covering a substrate side end part of an inner wall of the flow path side wall portion. | 03-05-2015 |
20150116427 | SEALANT FOR USE IN INK JET RECORDING HEADS AND INK JET RECORDING HEAD - Provided is a sealant for use in ink jet recording heads, comprising a cationically polymerizable resin; a fluorine-containing compound that is liquid at a temperature in a range of 20° C.±15° C.; and a cationic polymerization initiator. | 04-30-2015 |
20150124025 | LIQUID EJECTION HEAD AND LIQUID EJECTION APPARATUS - A liquid ejection head, including a first support member including a flow path for supplying liquid and an opening communicating with the flow path; at least one second support member that includes an individual liquid chamber communicating with the opening and is arranged on the first support member along the flow path; and a recording element substrate including an energy-generating element for generating energy for ejecting the liquid, and a supply port for supplying the liquid to the energy-generating element, the supply port communicating with the individual liquid chamber, the recording element substrate being supported by a back surface of the second support member with respect to an opposite surface thereof facing the first support member. When P (μJ/pL) represents energy to be input per ejection liquid droplet volume in the energy-generating element, thermal resistance R (K/W) of a shortest heat transfer path of the second support member between the recording element substrate and the first support member satisfies. | 05-07-2015 |
20150343781 | LIQUID EJECTION HEAD - The invention provides a liquid ejection head equipped with an energy generating element generating energy utilized for ejecting a liquid, a liquid supply port provided at a surface on which the energy generating element is provided for supplying the liquid to the energy generating element, a liquid flow path for supplying the liquid to the energy generating element from the liquid supply port and a rib extending from the liquid supply port toward an inlet of the liquid flow path, wherein an end portion of the rib on the side of the liquid flow path is provided at a position deviated from a center line of the liquid flow path. | 12-03-2015 |
20150375508 | BYPASS FLOW PATH FOR INK JET BUBBLES - An apparatus includes a bypass flow path between an ink supply port and a vent port and a primary flow path between the ink supply port and an ink delivery port. A first flow velocity of the bypass flow path is higher than a second flow velocity of the primary flow path. The first flow velocity induces bubbles to travel via the bypass flow path instead of the primary flow path. | 12-31-2015 |
20160059552 | FLOW PATH COMPONENT, LIQUID DISCHARGE HEAD, AND LIQUID DISCHARGE APPARATUS - An inclined plane which inclines toward a lower plane of a ceiling portion, that is, the lower plane of a communication substrate from a ceiling plane of a second liquid chamber is formed in the second liquid chamber of the communication substrate. Therefore, an individual communication opening is formed, in a state of penetrating the communication substrate from the inclined plane. One end (lower end) of the individual communication opening communicates with the second liquid chamber by being open onto the inclined plane, and the other end (upper end) of the individual communication opening individually communicates with a pressure chamber of a pressure chamber forming substrate by being open onto an upper plane of the communication substrate. When a thickness of the communication substrate is referred to as T, a length of the individual communication opening is referred to as L, and a substantial depth of the second liquid chamber is referred to as D, the dimensions are configured so as to be L+D>T. | 03-03-2016 |
20180022108 | LIQUID DISCHARGE HEAD USING DISCHARGE ENERGY GENERATION ELEMENTS | 01-25-2018 |
20220134745 | CAVITATION PLATE TO PROTECT A HEATING COMPONENT AND DETECT A CONDITION - According to examples, an apparatus may include a fluidic chamber, in which fluid is to be temporarily held. The apparatus may also include a heating component to generate heat to form a drive bubble in the fluid held in the fluidic chamber and a cavitation plate may be provided between the fluidic chamber and the heating component. The cavitation plate may be in communication with the fluidic chamber and may physically separate the fluidic chamber from the heating component to protect the heating component. In addition, a controller may determine a condition in the fluidic chamber based on an electrical signal received from the cavitation plate. | 05-05-2022 |